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Exocyclic adducts

Acetonitrile oxide and 3-methyl-6-(2-prop-l-enyl)cyclohexene yield only an exocyclic adduct, whereas with carvone a 1.7 1 mixture of the exocyclic adduct and the hexahydro-l,2-indoxazene (93) is produced.106 1-Cyano-cyclohexene and hydroxyurea in the presence of alkoxide give 3-amino-3a, 4,5,6,7,7a-hexahydroindoxazene, albeit in low yield (10%).107... [Pg.29]

Bartsch, FI., Keynote address exocyclic adducts as new risk markers for DNA damage in man, lARCSci. Publ, 150,1, 1999. [Pg.228]

ROS can lead to more than 20 oxidized base variations, which can cause DNA strand breaks, DNA—DNA and DNA—protein cross-links, and to sister—chromatid exchange leading to replication faults, including mutations that could ultimately alter protein synthesis (Cooke et al., 2003). In addition, DNA bases may be modified by 4-HNE and acrolein, leading to the formation of exocyclic adducts. [Pg.502]

FIGURE 18.2 Chemical structure of substituted and unsubstituted exocyclic adducts. [Pg.389]

Thompson points out that there is no evidence that adducts give other than acetates on thermolysis. The exocyclic methylene intermediate (iv) postulated by Robinson could arise by proton abstraction from a Wheland intermediate analogous to (vll) above, rather than from the adduct (in). Similarly its decomposition does not necessarily require the intermediacy of the adduct (v). The fact that i -methyl-4-nitromethylnaphthalene is the product even when the nitrating medium is nitric acid and nitromethane would then require no separate explanation. [Pg.224]

In the case of vinylfurans and vinylpyrroles there is the possibility of cycloaddition involving either the cyclic diene system or the diene system including the double bond. 2-Vinylfuran reacts in high yield with maleic anhydride in ether at room temperature to form the adduct involving the exocyclic double bond. Similarly, 2- and 3-vinylpyrroles react with 7T-electron-deficient alkenes and alkynes under relatively mild conditions to give the corresponding tetrahydro- and dihydro-indoles (Scheme 51) (80JOC4515). [Pg.66]

Benzo[Z)]furans and indoles do not take part in Diels-Alder reactions but 2-vinyl-benzo[Z)]furan and 2- and 3-vinylindoles give adducts involving the exocyclic double bond. In contrast, the benzo[c]-fused heterocycles function as highly reactive dienes in [4 + 2] cycloaddition reactions. Thus benzo[c]furan, isoindole (benzo[c]pyrrole) and benzo[c]thiophene all yield Diels-Alder adducts (137) with maleic anhydride. Adducts of this type are used to characterize these unstable molecules and in a similar way benzo[c]selenophene, which polymerizes on attempted isolation, was characterized by formation of an adduct with tetracyanoethylene (76JA867). [Pg.67]

The 1,4-addition of the anion of a racemic /1-oxo sulfoxide to racemic 2-cyclopentenone was reported to give a single diastereomeric adduct resulting from addition opposite to the y-ace-toxy group20, t he relative configuration of the exocyclic stereocenter was not determined. [Pg.930]

Consecutive Michael additions and alkylations can also be used for the diastereoselective synthesis of 5- and 6-membered ring systems. For instance when 6-iodo-2-hexenoates or 7-iodo-2-heptenoates are employed the enolate of the Michael adduct is stereoselectively quenched in situ to provide the cyclic compound with trans stereochemistry (>94 6 diastereomeric ratio). As the enolate geometry of the Michael donor can be controlled, high stereoselectivity can also be reached towards either the syn or anti configuration at the exocyclic... [Pg.995]

Macrolactones 77 and/or 78 can be prepared from the reductive cyclisation of ynals 76 in the presence of NHC-nickel complexes (Scheme 5.21) [21], This maaolactonisation occnrs with different selectivity depending on the ligands attached to the nickel. If carbenes snch as IMes or IPr are nsed, the exocyclic olefin 77 is preferentially obtained, however when phosphine ligands are nsed, the endocyclic adducts 78 are preferentially obtained. [Pg.143]

Vinylphosphonium salts are reactive as dienophiles as a result of the EWG character of the phosphonium substituent. The D-A adducts can be deprotonated to give ylides that undergo the Wittig reaction to introduce an exocyclic double bond. This sequence of reactions corresponds to a D-A reaction employing allene as the dienophile.71... [Pg.493]

The prototype o-quinone methide (o-QM) and / -quinone methide (p-QM) are reactive intermediates. In fact, they have only been detected spectroscopically at low temperatures (10 K) in an argon matrix,1 or as a transient species by laser flash photolysis.2 Such a reactivity is mainly due to their electrophilic nature, which is remarkable in comparison to that of other neutral electrophiles. In fact, QMs are excellent Michael acceptors, and nucleophiles add very fast under mild conditions at the QM exocyclic methylene group to form benzylic adducts, according to Scheme 2.1.2a 3... [Pg.34]

Acolbifene is also metabolized to a QM (Scheme 10.10)64 formed by oxidation at the C-17 methyl group. This QM is considerably more reactive compared to the tamoxifen quinone methide, which indicates that the acolbifene quinone methide is an electrophile of intermediate stability (Table 10.2). In addition, the acolbifene QM was determined to react with deoxynucleosides, with one of the major adducts resulting from reaction with the exocyclic amino group of adenine.64... [Pg.345]

A concerted four-center cis addition leads to (52) and a trans adduct a trans addition, possibly via protonium species, leads to (53) and a cis adduct a stepwise cationic addition leads to (54) and a mixture of cis and trans adducts. Recent studies by Marshall and Wurth strongly indicate that intermediate (54) is correct. Irradiation of octalin (55) in aqueous /-butyl alcohol (DaO)-xylene results in formation of the equatorially deuterated alcohols (56) and (57) and the equatorially deuterated exocyclic olefin (58) ... [Pg.268]

MCP (1) is not known to undergo [4 + 2] cycloadditions. The substitution of two, or more, ring protons with fluorine atoms, however, seems to improve dramatically the dienophilic reactivity of the exocyclic double bond. 2,2-Di-fluoromethylenecyclopropane (5) is a quite reactive dienophile in Diels-Alder cycloadditions. With cyclopentadiene (6) and furan (7), it formed two isomeric adducts (Scheme 1) [9]. In both cases the adduct with the endo CF2 group is the major isomer. [Pg.12]

Carbocyclic compounds containing an unsubstituted exocyclic methylene group give 1,2-diazetidines with PTAD. Methylene adamantane gives the adduct 47,8 5 and the methylene cyclopropane (48, R = H) gave the 1,2-diazetidine 49.86 The phenyl-substituted compound (48, R = Ph) behaved similarly to styrene and gave a 2 1 adduct with PTAD (see Section IV,D,1). [Pg.15]

Experiments on the metabolic activation of 5-MeC in mouse skin are in agreement with the pivotal role of anti-DE-I in expressing its tumorigenicity. The major DNA adduct formed in mouse skin treated with pH]5-MeC has the structure indicated in Figure 5, resulting from addition of the exocyclic amino group of deoxyguanosine to car-... [Pg.97]

In vitro studies of DNA interactions with the reactive ben-zo[a]pyrene epoxide BPDE indicate that physical binding of BPDE occurs rapidly on a millisecond time scale forming a complex that then reacts much more slowly on a time scale of minutes (17). Several reactive events follow formation of the physical complex. The most favorable reaction is the DNA catalyzed hydrolysis of BPDE to the tetrol, BPT (3,5,6,8,17). At 25°C and pH=7.0, the hydrolysis of BPDE to BPT in DNA is as much as 80 times faster than hydrolysis without DNA (8). Other reactions which follow formation of physical complexes include those involving the nucleotide bases and possibly the phosphodiester backbone. These can lead to DNA strand scission (9 34, 54-56) and to the formation of stable BPDE-DNA adducts. Adduct formation occurs at the exocyclic amino groups on the nucleotide bases and at other sites (1,2,9,17,20, 28,33,34,57,58). The pathway which leads to hydrocarbon adducts covalently bound to the 2-amino group of guanine has been the most widely studied. [Pg.216]

Structural identification of the N-acetylated adducts found in vivo has shown that binding to protein or GSH involves predominantly ortho-ring substitution of the arylamide with the sulfur atom in methionine or cysteine, respectively. In contrast, arylamide binding to nucleic acids vivo involves both -substitution at the C-8 position of guanine and ortho-ring substitution with the exocyclic N2 atom of guanine (26,29-31,37,38). [Pg.347]


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See also in sourсe #XX -- [ Pg.389 ]




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